India’s indigenous subsonic cruise missile, Nirbhay, which failed its last test in December 2015, is ready for its fifth trial, DRDO chief S. Christopher said on Sunday.

“We are planning to have one probable trial (of the missile) next week,” Christopher told IANS on the sidelines of a three-day international conference Fipsphysiocon-2017, organised by the Defence Institute of Physiology and Allied Sciences.

The DRDO chief said the glitches that led to failure in its fourth trial in December last year, have been removed.

According to sources, the problem was related to the software of the missile, and has been resolved. This time, the missile will also have a turbojet engine instead of the turbofan engine used so far.

The 750-1,000 km-long range missile’s first test on March 12, 2013 failed as it fell after 20 minutes of flight. The second on October 17, 2014 was, however, successful.

The third test on October 16, 2015 saw the missile nose-dive after covering 128 km in the Bay of Bengal.

The cruise missile is expected to supplement the Indo-Russian joint venture supersonic cruise missile BrahMos, which can carry warheads up to 290 km.

The two-stage missile has a length of six metres, a diameter of 0.52 m, a wing span of 2.7 m and a launch weight of about 1,500 kg.

Nirbhay, which has capability to strike deep into enemy territory, has been designed and developed by the DRDO at its aeronautics R&D laboratory Aeronautical Development Establishment in Bengaluru.

The cruise missile is powered by a solid rocket motor booster developed by the Advanced Systems Laboratory and is guided by a highly advanced inertial navigation system indigenously developed by Research Centre Imarat.

Nirbhay is able to pick out a target among multiple targets and attack it, and also can go around a target and re-engage it. It can fly at different altitudes ranging from 500 meters to 4 kilometers above ground and can fly at tree level to avoid detection by radar.

It is capable of delivering 24 different types of warheads depending on mission requirements and uses an inertial navigation system for guidance.